• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    Wearable electronic methods and devices are presented for dispensing substances, which substances can be released through an atomizer or diffuser system. The device with dressing function of interchangeable capsules containing substances includes specific connectors that allow a complete modular nature of the capsules, the display/control panel and the straps, thus allowing complete customization and optimization of the device. Its adjustment/mismatch and fixation system allows its attachment to a body automatically and intuitively. The incorporation of motors, sensors, readers and antennas in the system, which allow the integration of sensory impacts to the user experience (emission of visual, haptic or olfactory signals), is highlighted. In addition, the communication and identification systems integrated in the elements provide interoperability between them, with other devices and between users. (Machine-translation by Google Translate, not legally binding)
    公开号:ES2741373A1
    申请号:ES201830818
    申请日:2018-08-10
    公开日:2020-02-10
    发明作者:Lopez Daniel Andrinal;De Los Arcos Ramon Ignacio Cisneros;Andrinal Ignacio Güejes;Helga Seyler
    申请人:Inentia Aro Sl;
    IPC主号:
    专利说明:

    [0001]
    [0002] Wearable electronic device dispenser of substances with interchangeable elements and method of operation
    [0003]
    [0004]
    [0005]
    [0006] This patent belongs to the functional jewelry sector. It refers to an electronic device and a method for activating different forms of dispensing substances intelligently through spraying mechanisms incorporated in the wearable electronic device. Among the elements of the device include one or several interchangeable capsules that may contain one or more substances, a base, a processor for the control of the operation of the device, an exchangeable display and control panel, connectors and straps that allow data transfer , energy, and substances contained in the capsules, as well as a dispensing system (diffusion / atomization) and a customizable adjustment / mismatch and fixation system. As for the device, personalization, optimization and exchange of elements of the same, is facilitated through connectors and removable and interchangeable electronic elements. In turn, the method integrates the procedure for dispensing, as well as the interoperability of the electronic elements with each other, and the system with other devices through connectivity elements.
    [0007]
    [0008]
    [0009]
    [0010] The jewels are objects with greater or lesser value that are used as an ornament for the body, being normally made of some noble metal and sometimes decorated with pearls or precious stones, which have been used by man for more than 100.00 years until News for all kinds of cultures around the world. Among the most outstanding jewelry items include necklaces, bracelets, bracelets, rings, rings, buckles, as well as hair ornaments, among others. Its mere ornamental use stands out from the evolution of jewelry, although in recent years there has been a new general trend towards the introduction of intelligent functionalities to facilitate the daily life of the user. This application of smart technology in wearables (wearable technology) has already broken into numerous industrial sectors, such as the textile sector, or the watchmaking sector, logically deriving from the development of New technologies in these areas.
    [0011] On the other hand, since ancient times, the functionality of the perfumes has focused on the use of them as ritual offerings or merely as an element of personal hygiene to provide the user or their environment with certain aromas. The evolution of perfumes has focused until today mainly on the aromatic raw materials used. Also, its body application has stagnated in an atomization from a striking container. At present there are also wearable ornamental elements that offer the functionality of releasing fragrances, although these stand out for the little or no incorporation of intelligent application technologies, as well as their limited customization.
    [0012] It should be noted that both the jewelry and perfume industries, during the 20th century and so far in the 21st, have consolidated as industries that produce billions of euros in product sales, and whose only recent innovations are based in the aesthetics of decorative elements, in the aesthetics of traditional packaging or in the composition of fragrant substances, obviating any functional aspect and thus observing in both technical sectors a certain stagnation in terms of development and innovation.
    [0013] Currently there are systems that describe wearable elements intended for the release of atomized liquids in the cosmetic and perfume sector. These usually contain the spray system in the ornamental element, have limited functionality, are little customizable, provide limited dosage control or are of considerable size (see for example US4972684, ES2335375A1, US5217143A, WO2015189866A1). In addition, these are mostly limited to a mechanical system and require the user's full attention and intention to carry out the application according to their own perception, their own criteria or their environment (impact, volume, persistence, etc.). Said wearable devices do not allow the transfer of information between the user and the device or between the liquid to be atomized and its environment for the optimization, control or customization of the dosage or aesthetics of the device. Innovations in liquid atomization technologies in portable devices for inhalation therapies (eg asthma, Chronic Obstructive Pulmonary Disease EOPC, etc.) or cosmetic, focus on their miniaturization for greater portability and / or on the release mechanisms themselves of the liquid, without satisfying fashion needs, customization capabilities, comfort and functions as a complement to wearable technology (for example US8991722B2, US8925833B2, WO2009 / 019797A1). The most relevant invention in this direction could be the wearable aerosol dispensing apparatus (US6223744B1) consisting of a housing, an aerosol reservoir, a pressure dosing mechanism, a clamping member and a filling mechanism. This device is designed with the only utility of nasal / oral inhaler, without fashion element functionalities, without connectivity and limited intelligent functionality for the application. For example, this device does not have the ability to personalize the liquid or the dose to be supplied according to real-time health monitoring, application notification programming, ingredient customization system, or the automatic or semi-automatic release capability. In addition, the device screen serves only the information player function. On the other hand, said liquid dispensing devices preceding the present invention have the disadvantage of the need to disassemble the user's wrist strap to refill the liquid or to exchange the substance container. Perhaps, another patent that can technically approach the present invention is the national patent application ES2655309A1 in which the invention describes a bracelet with customizable embellishing plates, which comprises a frame or joint system, a reservoir of fragrant liquid contained in beautifying plates and various release mechanisms. Said invention does not possess a processor, nor the ability to transfer information after an internal processing thereof, nor does it have any type of electronic control or operation, automatic or (semi) automatic or remote of the device, or its release mechanisms, nor does it have sensors between its elements or any method or element to receive, visualize and generate electronic information. This device also does not allow an analysis of the environment (epidermis, environmental, etc.) to optimize the application of the liquid. Other patented wearable electronic devices provide new continuous interaction systems with the user and other devices to facilitate time management, monitor health and fitness parameters, record or reproduce audio, among other applications (for example, US2016 / 0058375A1, WO2014015031A1 ). In addition, in some embodiments, said devices can provide functions for disengaging or exchanging modules and independent electronic components anchored to a support for adjustment to the user's needs (battery recharge, comfort, appearance, functionality). However, the mechanism of assembly and disassembly of some traditional electronic elements is complicated or impossible, making it difficult to replace or replace internal components. Although, on the one hand, there are patents that describe a modular system of wearable electronic devices with units that allow customization such as, for example, US2007 / 0279852, WO2014 / 012486 A1 or CN204273575U; these do not have the capacity of dispensing and portability of substances. Another particular case of interest is the device odor eliminator (US8950238B2), which consists of an electronic device equipped with sensors and capable of emitting a fragrance in a controlled and / or continuous manner according to detected physical parameters. Said invention does not find its application as an ornamental fashion object or as a mobile dressing of substances, it does not allow customization of the appearance, or of the substance to be dispensed. Another particular case of interest represents the invention of a removable screen of a support (WO2018 / 004685A1) and / or separable from the battery (US2015 / 0212541A1) in a wearable electronic device, although this functionality is only intended to improve the mechanism of Recharge the battery and the comfort of the wearable device. The concept of de-anchoring the display panel of the central control unit and its battery is unprecedented in a wearable electronic device, and speeds up the exchange of internal parts, customization and repair of the device. Another point to consider in current wearable substance dispensing devices is the need for a smart fastening / adjustment system for proper sensor operation and greater comfort when dressing.
    [0014] Consequently, there is the current need for a wearable electronic device and mobile dressing of capsules containing one or more substances, with capacity for coupling and decoupling of elements and intelligent fastening / adjustment capacity for greater personalization of use and aesthetics, containing an intelligent substance dispensing system, which allows intuitive use and programming of dosing, connectivity with the user and interoperability with its surroundings. The references that are used in the drafting of this patent are the following:
    [0015] - US4972684 with priority date 10.04.1989 "Bangle having removable atomizer and interchangeable decorative clips" (Alexander G. Aitken).
    [0016] - ES2335375A1 with priority date 23.07.2007 "Perfumed dosing bracelet convertible to perfumed dosing bracelet" (Manuel González Pérez).
    [0017] - WO2015189866 with priority date 12.06.2014 "Wrist diffuser, particularly for the diffusion of perfumed fragrances".
    [0018] - US5217143A with priority date 09.08.1991 "Actuating device for a self-contained fluid dispenser in a bangle" (Alexander G. Aikten).
    [0019] - US8991722B2 with priority date 11.05.2011 "Microfluidic apparatus for the atomization of a liquid” (James Friend, Leslie Yei, David Morton, Michelle Mclntosh, Aisha Qi, Jenny Ho, Anushi Rajapaksa).
    [0020] - US8925833B2 with priority date 26.07.2010 "Portable electric mist supply apparatus for liquid cosmetics" (Joong-Hyung Ki, Su-Jin Son, Sung-Sin Kim).
    [0021] - CN204273575U with priority date 22.04.2015 "Portable perfume atomizing sprayer” (Liu Yajun).
    [0022] - WO2009019797A1 with priority date 07.08.2007 "Portable ultrasonic mist generator" (Yoshimitsu Konishi, Makiko Konishi).
    [0023] - US6223744B1 with priority date 16.03.1999 "Wearable aerosol delivery apparatus" (Mark Garon).
    [0024] - ES2655309A1 with priority date 19.08.2016 "Bracelet with personalized trim plates" (Ramón Ignacio Cisneros de los Arcos, Daniel Andrinal López).
    [0025] - US20070279852A1 with priority date 27.02.2004 "Wearable modular interface strap" (Simon R. Daniel).
    [0026] - WO2014012486A1 with priority date 17.07.2012 "Wearable wireless intelligent electronic device having removable and freely-combinable functional modules" (Gao Shouqian, Shi Zhuhong).
    [0027] - CN204166295U with priority date 31.10.2014 "Intelligent bracelet watch with expandable function modules" (Zhang Bokai; Liang Bairong).
    [0028] - WO2014015031A1 with priority date 17.07.2012 "Time Cycle Audio Recording Device" (Mike Sarow and Matthew R. Dooley).
    [0029] - US20160058375A1 with priority date 02.09.2014 "Wearable electronic device" (Fletcher R. Rothkopf).
    [0030] - WO2018004685A1 with priority date 01.07.2016 "Separatable wearable device" (Joyce Cumming Weiner).
    [0031] - US20150212541A1 with priority date 29.01.2014 "Wearable electronic device" (Wen Ting Lu).
    [0032] - US8950238B2 with priority date 31.08.2012 "Odor removing device” (Stephen H. Shaw, Rachid M. Alameh, William P. Alberth, Jerome Vodges).
    [0033]
    [0034] The objects, features and advantages of the present invention will become apparent in the following detailed description. It should be understood, however, that the detailed description and specific examples, although indicating specific embodiments of the invention, are given by way of illustration only, since various changes and modifications within the spirit and scope of the invention will be apparent to the experts. in the art from this detailed description.
    [0035] The present invention combines several concepts: a wearable container and dispenser of substances, an intelligent electronic device and an ornamental object dressing capsules, wearable and customizable. In addition, the invention describes a method for dispensing substances, which allows complete customization of the use and aesthetics of the device (information reproduced on a display / control panel, appearance of the device and dosage) as well as the use and customization of multiple functionalities. of connectivity The electronic components of the device allow a controlled dispensing of the substance (s) contained in the capsules, also incorporating sensory impacts to the user experience (through the emission of visual, haptic, olfactory and / or combination thereof) signals that add a greater customization of the use and of the device as such, compared to previous inventions.
    [0036] The following are the most innovative elements of the device regarding devices and inventions found in the background:
    [0037]
    [0038] -Changeable capsules. The capsules (8, 5 - FIG. 1 ) of the device can be made of a polymeric material, ceramic, glass, metal, a composite material, a single material, a multilayer material or combinations of materials; with the mechanical and chemical resistance for the storage of the substance or substances in a liquid, solid or gaseous state. The inside of the capsules may be segmented and contain one or more substances. The substance is extracted from the interchangeable capsule (8 - FIG.1 ), and is channeled to the base of the device (4 - FIG.1 ), by means of a plug-connector system with a function of closing, coupling and / or drip valve . Also, another exchangeable capsule (5- FIG. 1 ) may contain substances independently or be interconnected through the base of the device (15a- FIG. 1 ) with one or more substances contained in the first exchangeable capsule (8- FIG. .1 ).
    [0039] These interchangeable capsules can incorporate a chip, RFID tag or similar (9 - FIG. 1 ) where the information that is read by a reader and processed by the reader is stored processor, both components can be located in base (4 - FIG.1 ) of the device. For example, the capsule chip may contain the information to be reproduced on the display / control panel (1 - FIG. 1) of the device (designs, digital image, content, etc.) ( FIG. 9 ) or other device ( FIG. 8 ), or may contain electronic identification means as part of an electronic security system
    [0040] of the system.
    [0041]
    [0042] -Base. The base (4 - FIG. 1 ) of the device to which the exchangeable capsule (8 - FIG. 1 ) containing one or more substances and the exchangeable display / control panel (1 - FIG . 1) is attached . Said base also incorporates the connection of the flow of substance between the capsule (8- FIG. 1 ) and the belts (3a, 3b- FIG. 1 ), and a physical connection (12- FIG. 1 ) that allows coupling and uncoupling. of the display / control panel (1 - FIG . 1). In addition, it may contain integrated electrical circuits, a processor or microcontroller, a memory, a battery and / or power generator, the electronic connection from the motherboard and battery to the device elements, other chips or circuits, data transmission elements and waves, and sensors. Examples of the data and wave transmission elements can be sensors and connectivity elements such as telephone antennas, microphones, speakers, haptic devices, RFID reader, etc. Examples of sensors can include those that contribute to an intelligent application. substances such as pH sensors, temperature sensors, electrodermal activity sensors, blood flow sensors, heart rate sensors, photoplethysmographic sensors, humidity sensors, ultrasonic sensors, analyte detectors, biometric sensors, or others. In addition, the base, through software processing, can receive the information stored in the capsules through connectivity elements and transform it into a 2D, 3D, hologram or animation digital image, which can be directly visible, through a screen, through other electronic devices connected to through interactive multimedia technologies such as AR and / or MR and / or VR ( FIG . 8 ).
    [0043] The components of the base may be within it, housed and / or coupled and / or partially integrated therein. The base (4 - FIG. 1 ) of the device is provided with a connector, contact or contactless system (22 - FIG. 3 ) for recharging the battery such as USB type or wireless charging via charger. In an example of the invention, wireless charging can occur by magnetic induction through an induction coil integrated in the base and / or in a specific housing. In another example of the invention, wireless charging can occur through resonant magnetic induction. The base (4 - FIG. 1 ) of the device can also, through the processor, receive information provided by the capsule and / or the sensors and / or the exchangeable display / control panel ( FIG. 7 ) and / or connected independent electronic devices (mobile phone, Tablet, laptop) ( FIG. 8 ) and generate electronic instructions to customize the information reproduced on the display panel / control (1) and / or operating the dispensing system (FIG.5, FIG.6) of the substance and / or adjust the position straps (FIG.4). The transfer of data can occur through an own electrical connection, a wireless connection or a combination of these. The base (4 - FIG. 1 ) of the device can be made of a polymeric material, a composite material, wood, leather, metal or metal alloys, ceramics, glass, a combination of these or any other material that can act as support for the elements contained in the base.
    [0044]
    [0045] -Exchangeable display / control panel (1 - FIG . 2). Using a magnetic triple connection system (12 - FIG. 2 ), the display / control panel of the device screen can be connected and disconnected, which is partially incorporated into the base of the device (4 - FIG . 2). This system allows the exchange of capsules (8 - FIG. 2 ), the differentiated passage of energy from the device's battery, information from the device's motherboard to the screen and vice versa, as well as information from the different sensors ( FIG .7 ). In turn, it facilitates the replacement of the display / control panel (1 - FIG. 2 ) and personalization of the device's appearance, such as the anchoring of an analog clock. In summary, for the first time in a device a connection / disconnection and anchoring / de-anchoring of the display / control panel (1 - FIG.2 ) of its base is allowed through a multifunctional connector. The triple connector (12 - FIG.2 ) can use all three channels simultaneously or independently. The electronic connection between the display / control panel (1 - FIG. 1) and the motherboard may contain spring and / or groove and / or magnetic type connectors. The interchangeable display / control panel (1 - FIG. 2 ) may contain LCD, OLED or similar technologies. In some embodiments of the invention, the display / control panel (1- FIG. 2 ) may comprise a touch panel, a flexible panel, a digital clock, a gaming platform, a remote control of other electronic devices, a platform for communication or display of information in real time to the user (time, time, epidermis parameters, physiological and / or environment, holograms, etc.). The interchangeable display / control panel (1 - FIG.2 ) can be executed in combination with the base of the device, or with another device independently. In other embodiments of the invention, the cavity (11- FIG.2 ) where the display / control panel (1- FIG.2 ) is coupled, together with the connector (12- FIG.2 ), can be used for coupling of other devices mechanical or electronic or decorative other than a display / control panel, such as a holographic display, jewelery, watches, jewelry, or any ornamental or technological element.
    [0046]
    [0047] -System dispenser (diffuser / atomizer) (FIG.5, FIG.6). The dispensing system (diffuser / atomizer) allows intelligent and customizable control of the release of the substance or substances contained in the interchangeable capsules (5, 8 - FIG. 1 ) through different spray modes: DIRECT MODE through an electromagnetic system of atomization ( FIG. 5 ) or INDIRECT MODE by means of an ultrasonic diffusion system ( FIG . 6 ). Through the internal connection systems integrated in the belts (14, 15a, 15b - FIG.1 ; 26 - FIG.4 ), the processor, the integrated circuit and software, the device can generate electromagnetic fields and / or ultrasonic waves and execute the dispensing (diffusion / atomization) of the substances.
    [0048] The electronic dispensing system (diffuser / atomizer; FIG.5, FIG.6) drivable through the display panel / control (1 - FIG.1), automatically in response to a sensed stimulus by one or more sensors, by a switch, through another remotely connected electronic device ( FIG. 7 ), or in combination with a manual dispensing system.
    [0049] The atomization system ( FIG.5 ) has the functionality of releasing the substance contained in the interchangeable capsule (8 - FIG.1 ) in a timely manner to a discrete surface or cavity, and is located in the secondary belt (3b - FIG .5 ). The diffusion system ( FIG. 6 ) has the functionality of releasing the substance to the environment semi-continuously, during time intervals, or continuously; it can be located in the base, in the primary belt (3a - FIG.6 ), or in the secondary belt, or in the same capsule (5 - FIG.6 ). The belt may incorporate connection cables or contain a system of its own channels not added (14, 15a, 15b - FIG. 1 ) that allow the passage of electrical pulses and flow of substances between the base (4 - FIG. 1 ) of the device and the dispensing system (diffuser / atomizer). In some embodiment of the invention, the conduits that provide data and electricity transfer are obtained through the deposition, printing, molding or injection of channels containing inorganic semiconductor polymers, conductors or semiconductors, nanoparticle doped materials, nanomaterials, or Some combination the same. In some embodiments of the invention, the dispensing system (diffuser / atomizer, FIG.5, FIG.6) and which engages the belt may incorporate an electrical connector (for example spring type mechanism) and a coupling system ( by connection by click, magnetic union or similar) that allow the anchoring and disassembly of the dispensing system (diffuser / atomizer) of the belt. In addition, the electrical connectivity of the atomizer (14, 26 - FIG. 4 ) allows the incorporation of sensors to it, thus being able to add new functionalities to the device, such as biometric sensors as a safety system. In other embodiments of the invention, the modular atomization system allows the coupling of special atomizers with nozzles for specific applications (nasal, oral, ophthalmic application, etc.).
    [0050]
    [0051] -Adjustment / adjustment and fixation system ( FIG . 4 ). The belts (3a, 3b - FIG. 4 ) contain, at their ends, an adjustment / mismatch and fixation mechanism. The adjustment / mismatch system incorporates a linear motor of an electronic and / or mechanical and / or magnetic nature (24, 25 - FIG.4 ) and / or piezoelectric and / or gear, which allows one belt to move over another and adapt the belts to a body automatically and intuitively and in predetermined positions. The fixing mechanism contains a fastening system between straps by rails and / or by click and / or magnetic. The electrical energy and the data transfer necessary for the operation of the adjustment / mismatch and fixation mechanism is supplied through the conduit (14 - FIG.6 ) of the belt (3a - FIG.6 ). The battery that supplies the power can be contained in the base (4) or in the belt (3a). The device adjustment / mismatch system can be based on the movement of the secondary belt (3b - FIG.4 ) as a moving part on the primary belt (3a - FIG.4 ) as a stationary part, or the movement of the primary belt (3a - FIG. 4 ) as a moving part below the secondary belt (3b - FIG. 4 ) as a stationary part. In one example, the user can memorize three, or more, positions and activate them by means of the action of a switch or through the display / control panel (1) of the device or as an automatic response to the information received by one or more sensors ( FIG .7 ). In addition, the constituent parts of the adjustment / mismatch and fixation system ( FIG.4 ) contain an electronic connection system between them (26 - FIG.4 ). It fulfills the functions of connector, contact and safety system of the electrical circuit (switch).
    [0052]
    [0053] From this structuring, the invention provides a method of operation of the wearable electronic device ( FIG. 9 ) in order to dispense one or more substances contained in one or more interchangeable capsules, and which comprises the following operational phases: the coupling from the interchangeable capsule to the wearable electronic dispensing device; the generation of electronic information from data obtained from an interface; the reception of electronic information in the device processor; the generation of an electronic instruction to activate the dispensing system; and the temporary operation of the substance dispensing system of the wearable electronic device for spraying and releasing the substance (s) through the DIRECT and / or INDIRECT MODE.
    [0054] In some embodiments, the electronic information received in the processor may also generate electronic instructions with additional functionalities, such as personalizing the information of a user interface, interacting with the user and / or with other devices or users. For example, the capsule arranged in the device can send electronic information to the processor through connectivity elements, which is processed as an electronic instruction to personalize the information reproduced on the display panel. In another example, data from a pH sensor can be received and processed in the processor, resulting in an electronic instruction to issue a specific haptic signal to the user of the need for dispensing.
    [0055] In other embodiments, the electronic information received in the processor of the electronic dispensing device may generate electronic instructions to temporarily activate any element of the wearable electronic dispensing device, such as the particle propellant system and the adjustment / mismatch and fixation system.
    [0056]
    [0057] In order to complement the description and in order to help a better understanding of the features of the invention, accompanying drawings are included as an integral part of said description, where the following has been illustrated:
    [0058]
    [0059] FIG. 1 Open, closed, and dismantled device with the components that make it up in isometric vision.
    [0060] 1. Interchangeable display / control panel.
    [0061] 2. Base-strap connector.
    [0062] 3rd. Primary belt
    [0063] 3b Secondary belt
    [0064] 4. Base.
    [0065] 5. and 8. Interchangeable capsules.
    [0066] 6. Stator of adjustment / mismatch and fixation system.
    [0067] 7. Substance dispenser. Atomizer.
    [0068] 9. Capsule data communication / identification / storage system.
    [0069] 10. and 16a. Cavities for coupling interchangeable capsules.
    [0070] 11. Cavity for coupling the display / control panel.
    [0071] 12. Connection and coupling system between the base and the display / control panel. 13. Connection and coupling system between the base and the capsule.
    [0072] 14., 15a. and 15b. Internal connection of the straps.
    [0073] 16th and 16b. Cavities for coupling the substance dispensing system.
    [0074] 17. Cavity where the stator is located.
    [0075]
    [0076] FIG. 2 Capsule, base, and display / control panel of the device (open and closed) showing the act of replacing capsules in isometric vision.
    [0077] 1. Interchangeable display / control panel.
    [0078] 4. Base.
    [0079] 8. Exchangeable capsule.
    [0080] 9. Capsule data communication / identification / storage system.
    [0081] 10. Cavity for interchangeable capsule coupling.
    [0082] 11. Cavity for coupling the display / control panel.
    [0083] 12. Connection and coupling system between the base and the display / control panel. 13. Connection and coupling system between the base and the capsule.
    [0084] FIG. 3 Display / control panel and base of the device with its components dismantled in isometric vision.
    [0085] 4. Base.
    [0086] 8. Exchangeable capsule.
    [0087] 12. Connection and coupling system between the base and the display / control panel. 18. Display / control panel support.
    [0088] 19. Lighting panel.
    [0089] 20. Digitizer.
    [0090] 21. Protective surface.
    [0091] 22. Surface for battery charging.
    [0092]
    [0093] FIG. 4 System of adjustment / mismatch and fixation of the device showing all its parts in perpendicular and asymmetric vision.
    [0094] 1. Interchangeable display / control panel.
    [0095] 2. Base-strap connector.
    [0096] 3rd. Primary belt
    [0097] 3b Secondary belt
    [0098] 5. Exchangeable capsule.
    [0099] 6. Stator of adjustment / mismatch and fixation system.
    [0100] 7. Substance dispenser. Atomizer.
    [0101] 14. Internal electrical connection of the belt.
    [0102] 23. Sliding system adjustment / mismatch and fixation, and atomizer support.
    [0103] 24. and 25 System actuators adjustment / mismatch and fixation.
    [0104] 26. Connection between the stator and the fixing system slide.
    [0105] A, B. Action mode. A. Adjust. B. Mismatch.
    [0106]
    [0107] FIG. 5 DIRECT MODE substance dispenser of the device. The location of the parts and the operation of the atomizer for a specific embodiment is described.
    [0108] 1. Interchangeable display / control panel.
    [0109] 2. Base-strap connector.
    [0110] 3rd. Primary belt
    [0111] 3b Secondary belt
    [0112] 7. Substance dispenser. Atomizer.
    [0113] 14. Internal electrical connection of the belt.
    [0114] 23. Sliding system adjustment / mismatch and fixation, and atomizer support.
    [0115] 27. Atomizer housing.
    [0116] 28. Atomizer actuator.
    [0117] 29. Atomizer body.
    [0118] 30. Electromagnet.
    [0119] 31. Magnet
    [0120] A, B. Modes of action. A. Rest. B. Atomization.
    [0121]
    [0122] FIG.6 INDIRECT MODE substance dispenser of the device. The location of the parts and the operation of the diffuser for a specific embodiment are described. 1. Interchangeable display / control panel.
    [0123] 2. Base-strap connector.
    [0124] 3rd. Primary belt
    [0125] 5. Exchangeable capsule.
    [0126] 6. Stator of adjustment / mismatch and fixation system.
    [0127] 16th Cavity for interchangeable belt capsule coupling
    [0128] 32. Engine.
    [0129] 33. Piezoelectric substrate.
    [0130] 34. Membrane.
    [0131] 35. Representation of ultrasonic waves.
    [0132] 36. Substance.
    [0133] A, B, C. Particle propulsion modes depending on the intensity and frequency of the signal. Down. B. Medium. C. Strong.
    [0134]
    [0135] FIG.7 Flowchart describing an example of connectivity and interoperability of the elements of the wearable electronic device for dispensing substances with interchangeable elements. Transfer of data, substances and energy between elements.
    [0136]
    [0137] FIG. 8 Graphic representation of an example of interoperability between systems, user and environment, data transmission, and software processing through a remotely connected device.
    [0138]
    [0139] FIG. 9 Flowchart describing the possible operations of a method for dispensing substances contained in interchangeable capsules through a wearable electronic device.
    [0140]
    [0141] The following description of the preferred embodiment of the invention and / or some structural part thereof, which is explained in the present patent, is intended to describe how they are configured at least in that way, but they can also be configured in a different way than not. It is contained in this description.
    [0142]
    [0143] The device of the invention is composed of the following removable and interchangeable elements (see FIG. 1 ) a base (4 of FIG. 1 ), one or several interchangeable capsules (5 and 8 of FIG. 1 ), a panel of display / interchangeable control (1 FIG.1), one or more straps that fit and distortive to the user device (3a and 3b of FIG.1) and a dispensing system (diffuser / atomizer) (FIG.5, FIG.6 ) The dispensing method of the device allows dispensing one or more substances contained in the interchangeable capsules by means of various dispensing mechanisms through personalized electronic instructions ( FIG . 9 ). The device contains the hardware and software that allows to automate and control the release (dosage and frequency) of the substance (s) contained in the interchangeable capsules, as well as the displacement of the particles in the environment. These diffusion mechanisms and atomization (FIG.5, FIG.6) can be activated from the device or other devices wirelessly, or in response to information received from the interface, sensors or capsules (FIG.9). The device has a new connection system (12 of FIG. 1 ) between the base (4) and the display / control panel (1). This connection allows the display / control panel to be connected and disconnected to the base. Likewise, the base (4) allows the transfer of information and energy between the processor, the battery, the screen, the interchangeable capsule (5, 8), and other elements of the device ( FIG. 7 ), or even with other independent electronic devices, allowing more effective use and greater interaction between the device and the user, or between users ( FIG . 8 ). On the other hand, the device contains an electronic system of adjustment / mismatch and fixation of belts ( FIG. 4 ) that facilitates the user the personalized regulation of the size of the belt for an optimal user experience and optimizes the functionality of the dispensing system (diffuser) / atomizer) of the device and sensors. FIG. 7 and FIG. 9 show an example of the system and method, which reflects the interoperability and capacity of its elements and subsystems to exchange and use the information exchanged.
    [0144] The preferred embodiments of electronic dispensing of the substances contained in the interchangeable capsules of the device are the following:
    [0145] Atomization system (DIRECT MODE). Electromagnetic system that allows the spraying of substances through an actuator (spray) by means of the repulsion / attraction of electromagnets and permanent magnets, regulated through software and an electronic connection from the base plate / battery and through the belt to the atomizer (14 - FIG.5, 26 - FIG.4). In a specific embodiment ( FIG. 5 ), a negative or barbed electromagnet (30) located in the atomizer holder exerts an attractive force on a permanent magnet (31) located in the body (29) of the atomizer (rest position , TO). The current supply causes a change in the polarity of the electromagnet (30), repelling the permanent magnet (31) and in turn executing the movement of the body (29) towards the actuator (28) (dispensing action, B), following this movement the direction contrary to the usual atomization direction to date. In another embodiment, the system drives the attraction of magnets / electromagnets positioned in the body and actuator of the atomizer. The resulting effect is an instantaneous attraction of the magnets, driving the movement of the body and towards the fixed actuator. In another embodiment, the atomization of the substance is carried out by means of a solenoid valve operated by means of a solenoid coil. Through the power supply, the movement of the piston or piston can allow the substance to pass to an intermediate tank and its return movement forces it through the actuator. Alternatively, the micro solenoid solenoid valve (push-pull magnetic actuator) can execute a piston / rod that presses the actuator and expels the substance through it.
    [0146]
    [0147] -Diffusion system (INDIRECT MODE) System that allows the spraying of substances by ultrasound (see FIG . 6 ). In some example, the diffusion mechanism may be based on spray systems by surface acoustic wave technology or ultrasonic fogging. The system can be used for direct or diffuse and indirect application of the substance to be released. The mechanism transforms the electrical energy supplied by the battery into mechanical energy in the form of vibrations by means of a transducer (33). The transducer (33) may comprise a piezoelectric substrate (crystal, ceramic, polymeric or any other material, such as LiNbO3, lead zirconate titanate, quartz), one or more transducers, polymeric and / or metallic membranes (34). The substance (36) is sprayed when subjected to ultrasound waves (35) once in contact with the transducer. The ultrasonic emitter, capable of emitting frequencies (between 20 kHz-100 MHz, preferably at frequencies close to 100 KHz) may be submerged in the substance in a liquid state, exposed to the incidence of liquid flow, or be in contact with a polymer sensitive to ultrasound stimulation. The The substance may be contained in a cavity, have a controlled effect on the spray surface or be absorbed in a polymer matrix (such as, for example, absorbed in polyvinyl acetate, polyhydroxyethyl methacrylate, cellulose, etc.) polymers. The flow of substances can be controlled by an electrovalve, a small pump, transported by gravity or pressure differences. The dosage can be controlled by the flow of the liquid, the frequency of the ultrasonic wave or by a porous membrane. Said ultrasound emitter allows controlled spraying in terms of time, volume and spatial distribution of the substance. Said mechanism may be complemented by different pressure, volumetric valves, membranes, piezoelectric materials or other forms of control.
    [0148]
    [0149] By means of software, the atomization / diffusion time can be programmed, the electromagnet and the valve changes, the piezoelectric materials and membranes can be activated, as well as to regulate the intensity and frequency of the emitted pulses. Both the electromagnets system and the ultrasound system can incorporate a motor and / or haptic sensor and / or ultrasonic transducers (see FIG. 6 32, 33) that allows the particles of the sprayed substance to be propelled through the environment by pressure changes in the air (pressure waves) at greater or lesser speed through the direct or indirect emission channels of the dispensing system (see A, B, C of FIG . 6 ). Said or other motor and / or haptic sensor (32) also allows a pulse or vibration to be applied to the user's skin, being able to configure, customize or regulate said vibration, the coding of a substance and image being the sense of touch. The haptic transmitter / sensor can also have the function of notification / alert to the user, for example, on the need to operate the dispensing system. Examples of haptic motors or sensors can be a linear resonator or eccentric mass actuator or a piezoelectric substrate.
    [0150]
    [0151] The preferred embodiments of the device adjustment / mismatch and fixation system are as follows:
    [0152] In a preferred embodiment of the invention, the primary belt (3a- FIG. 4 ) may contain one or more electromagnets (24- FIG. 4 ) and electrical connectivity (14- FIG. 4 ) which allows the polarity of the magnetic field to alternate. through device programming. In the same embodiment, the atomizer support on the primary belt (23- FIG.4 ) incorporates one or more permanent magnets (25- FIG.4 ) with alternating polarities. The movement is produced by electrical pulses that receive the electromagnets and regulate the polarity and intensity of the magnetic fields generated in the stator. The forces of attraction and repulsion between the magnets propel the displacement of the secondary belt ( FIG. 4 , adjustment movements A and mismatch B). In another embodiment of the invention, a motor integrated in the primary belt can drive a rack-and-pinion-type gear system. Said system is designed in such a way that it minimizes friction between the pieces. In another embodiment of the invention, the primary belt can move the secondary belt through the reverse piezoelectric effect (linear ultrasonic piezoelectric motor). The primary belt may contain a piezoelectric material, to which the appropriate electrical signal is applied, resulting in the deformation of the latter and in turn in the deformation of an incorporated elastic material. The mechanical movement is the result of the frictional force between the surfaces of the belts in contact. In another embodiment of the invention, the motor may contain one or more teeth that frictionally push the secondary belt and act as a resting brake system. The strap material can be made of synthetic or natural leather, polymeric material, metal or alloy, composite materials, fabrics, some combination of the above or other materials.
    [0153] In a preferred embodiment, the electronic connection (26- FIG. 4 ), partially located in the constituent parts (6,23- FIG. 4 ) of the adjustment / mismatch and fixation system, allows the transfer of energy and data to the diffuser system. (DIRECT MODE, FIG. 5 ) through a series of contacts. In turn, it acts as a safety system for the electrical circuit allowing or preventing the flow of current when the straps are closed or open, respectively. The connection (26 - FIG. 4 ) can be a manual and / or electrical and / or electronic and / or magnetic action switch.
    [0154]
    [0155] The device, the methods, the systems described and / or claimed herein can be carried out and executed without experimentation due to the light of the present description. While the devices, systems and methods of this invention have been described in terms of particular embodiments, it will be apparent to those skilled in the art that variations may be applied to the devices, systems and / or methods in their steps or in the sequence of steps of the method described in this document without departing from the concept, spirit and scope of the invention. All these substitutes and similar modifications for those skilled in the art are considered within the spirit, scope and concept of the invention as defined by the appended claims.
    [0156]
    [0157] The term “dressing room1” is understood in this document as the element or set of elements of the electronic device that have a support function, an organizing function, a coupling function, and that also trim and exornate the interchangeable capsules.
    [0158] The term "element" is understood herein as the different components of the wearable electronic device for dispensing substances, which can be fixed or removable, which are connected to the device, which can also have energy atony.
    [0159] The term "incorporate" is understood herein as the action of containing non-interchangeable elements.
    [0160] The term "base" is understood herein as the physical medium where the exchangeable capsule, the exchangeable display / control panel is attached, and which may contain the electronic components necessary for the functionality of this device (processor, battery, motherboard , integrated circuit for the transfer of information and energy, etc.).
    [0161] The term "screen" is understood in this document as the set of elements that allow its operation and that comprise a display panel, integrated circuits, controls and support.
    [0162] The term "display / controf panel" is understood herein as the part of the screen that contains at least one front protective surface, a touch panel or digitizer, OLED or LCD panel and back support.
    [0163] The term "belts" is understood in this document as the elements of the system that allow the electronic device to be adjusted to a body, being in turn the physical support of the system of adjustment / mismatch and fixation of the device and of the diffusion / atomization systems and physical, electronic and fluid connection system between the system elements (bus).
    [0164] The term "electronic substance dispensing device" is understood herein as the set of elements, which contain the electronic, mechanical and substance flow circuits necessary to perform the action of dispensing substances contained in the interchangeable capsules autonomously or discretion.
    [0165] The term "substance" is understood herein as any element capable of being stored within the exchangeable capsules in a liquid, solid, gaseous, or combination state of these material states, which is capable, once the exchangeable capsule is connected to the device, to flow through the connection channels of the device and reach the dispensing system (diffuser / atomizer) to be able to be released to the medium according to any of the spray modes described in this document.
    [0166] The term "connection" is understood herein as the electrical, data, fluid, physical, wireless link, or a combination thereof.
    [0167] The term "spray" is understood herein as the action of transforming a substance into particles and / or very small drops in fine mist or vapor.
    [0168] The term "diffusion" is understood herein as the combination of the actions of spraying and dispersing the substance into the environment.
    [0169] The term "operational linking" is understood herein as the physical or logical link between elements and / or devices and / or combinations thereof to fulfill a specific function.
    [0170] The term "device security system" is understood herein as the mechanism that prevents the electronic device from being used illegitimately, prevents accidental detachment of the device after its correct anchorage and coupling; and that allows to open or close the passage of energy to any of the elements of the device.
    [0171] The term "user interface" is understood herein as the means (physical or logical) of the electronic device that allows the interaction of one or more users with said device.
    [0172] The term "bus" is understood in this document as the set of conductors and channels of the device that allows the distribution of feed, information and substance flow currents among the elements of the device.
    权利要求:
    Claims (36)
    [1]
    1. A wearable electronic substance dispensing device with interchangeable elements comprising:
    a) at least one exchangeable capsule (5, 8) containing at least one substance and operatively linked to a processor and / or a base (4), and / or belts (3a, 3b) and / or a substance dispenser (FIG.5, FIG.6);
    b) the processor programmed to receive electronic information, generate and send an electronic instruction to temporarily activate one or some elements coupled to the device;
    c) the base (4), where the exchangeable capsule (8) is attached and which supports an exchangeable display / control panel (1) in a cavity (11); and comprises, in turn, sensors, readers, storage and transmission systems of data, energy and waves, and is operatively linked to the processor and / or the elements coupled to the wearable electronic device dispenser;
    d) the substance dispensing system (FIG.5, FIG.6) operably linked to and exchangeable capsules (5, 8) and to the processor; and comprising at least one electronic mechanism dispenser and / or sprayer and / or particle propellant;
    e) the interchangeable display / control panel (1) operatively linked to the processor and the base (4) through temporary connections (12), in such a way as to secure the interchangeable capsule (8) acting as a user interface and / or information player;
    f) the primary belt (3a) configured for fixing the wearable electronic device dispenser to a body and operatively linking the base (4), the processor and the interchangeable capsules (5,8) with the elements coupled to said belt (3a ) and / or another belt through a bus and integrated connections (14, 15a, 26);
    g) the secondary belt (3b) configured, together with the primary belt (3a), for fixing the wearable electronic device dispenser to a body and which, in turn, operatively links the interchangeable capsule (8) with the coupled elements to said belt (3b) through integrated connections (15b);
    h) at least one connector (2) operatively connected and connected to the primary belt (3a) and / or the secondary belt (3b), and / or the base (4) and / or the interchangeable capsule (5,8) );
    i) an adjustment system / mismatch and fixing (FIG.4) operably linked to the processor, the base (4), to the dispensing system (FIG.5, FIG.6), the primary belt and secondary belt (3a, 3b ); and that drives the movement of at least one of the belts (3a, 3b).
    [2]
    2. The device according to claim 1, characterized in that the interchangeable capsule (5, 8) comprises at least one material configured to provide the mechanical and chemical resistance necessary for the storage of substances.
    [3]
    The device according to claim 1, characterized in that the interchangeable capsule (5, 8) is solid and / or hollow and comprises at least one compartment with a load volume between 0.1-100 milliliters.
    [4]
    The device according to claim 1, characterized in that the interchangeable capsule (5, 8) is operatively linked to at least one fluid circuit in the base (4) and / or in the belts (3a, 3b) and / or in the dispensing system (FIG.5, FIG.6) via an adapter joint closing function drip valve and / or connector substance flow.
    [5]
    The device according to claim 1, characterized in that the interchangeable capsule (5, 8) is operatively linked to the processor through electronic identification means and / or connectivity elements (RFID chips, NFC or similar technologies), configured to send a unique operational and identifying electronic information from the interchangeable capsule or capsules to the processor, which will subsequently generate electronic instructions to temporarily activate the elements of the device and / or other devices.
    [6]
    The device according to claim 1, characterized in that the interchangeable capsule (5, 8) contains substances in a liquid, solid, gaseous state, or combinations of substances in said states of matter.
    [7]
    The device according to claim 1, characterized in that the interchangeable capsule (5, 8) is functionally arranged on other supports external to the device, provided that said supports comprise the minimum elements necessary for their coupling.
    [8]
    The device according to claim 1, characterized in that the base (4) comprises at least one material configured to fulfill the support function for the partially integrated and / or housed elements and / or contents and / or coupled to said base.
    [9]
    The device according to claim 1, characterized in that the base (4) also couples the processor and an electronic control circuit of the device; and because the processor and the electronic control circuit are configured to control the dosage of the substance by software (programming of the form, time and frequency of release; programming of the release by geolocation, or other parameters or combination thereof) .
    [10]
    The device according to claim 1, characterized in that the base sensors (4) comprise biometric sensors, pH sensors, temperature sensors, electrodermal activity sensors, blood flow sensors, heart rate sensors, photoplethysmographic sensors, sensors humidity, ultrasonic sensors, analyte sensors, and / or sensors of a similar nature, configured to capture data from the user and / or the environment and then send them to the processor for the generation of adapted instructions.
    [11]
    The device according to claim 1, characterized in that the sensors and data transmission elements and waves of the base (4) comprise haptic emitters generating touch sensory stimuli and / or connectivity elements, to fulfill notification / alert functions and / or interoperability functions of the device with the user, other devices and / or the environment through interactive multimedia technologies.
    [12]
    12. The device according to claim 1, characterized in that the base (4) comprises independent and sealed spaces against the circulating flow of substances of the device and containing energy storage and transmission elements, which comprise a battery and charging means through of a connector, and / or of a contact and / or wireless connection by magnetic and / or resonant induction or similar technologies.
    [13]
    13. The device according to claim 1, characterized in that the multiple connector (12-FIG. 1) with slot and / or magnetic coupling systems and / or springs, and the cavity (11) of the base (4) couple, link operationally the processor and the base to the interchangeable display / control panel (1) and allow its operation; and / or can functionally couple other elements (mechanical, electronic and / or ornamental).
    [14]
    14. The device according to claim 1, characterized in that the processor receives electronic information, generates and transmits one or some electronic instructions through of a wireless, physical connection or a combination thereof and through connections of the same nature, said processor is also operatively linked to the capsule (5, 8) and / or the base (4) and / or the system substance dispenser (FIG.5, FIG.6) and / or the display panel / control (1) and / or to the adjustment system / mismatch and fixing (FIG.4).
    [15]
    15. The device according to claim 1, characterized in that the belts (3a, 3b) comprise at least one material configured to fulfill the function of support and bus, and configured to provide the necessary mechanical and chemical resistance to the substances and the flow flowing for them.
    [16]
    16. The device according to claim 1, characterized in that the adjustment / mismatch and fixation system comprises at least one motor and / or actuator driving the movement of at least one of the belts (3a, 3b), and which comprises at least one configurable mechanism of mechanical and / or magnetic and / or electronic and / or piezoelectric type, or combinations thereof and / or similar technologies.
    [17]
    17. The device according to claim 1, wherein the operative linking of the adjustment / mismatch and fixation system ( FIG. 4 ) comprises at least one temporary electrical connection (26) that acts as a safety system for the electrical circuit.
    [18]
    18. The device according to claim 1, wherein the dispensing system (FIG.5, FIG.6) is configured such that its operation and the dosage of the substance can be controlled at will, by electronic program through the display panel / control (1), remotely from another device, or by a button.
    [19]
    19. The device according to claim 1, wherein the dispensing system (FIG.5, FIG.6) comprises a spray atomization system (FIG.5) (DIRECT MODE) operated by electromagnets.
    [20]
    20. The spray atomization system according to claim 19, characterized in that the atomizer can be operated through the movement of the body (29) towards the actuator (28) or the movement of the actuator (28) towards the body (29).
    [21]
    21. The device according to claim 1, characterized in that the dispensing system (FIG.5, FIG.6) comprises a modular spraying system nozzles coupling for specific applications (nasal, oral, ophthalmic or similar nature), wherein said nozzles send control information to electronic processor, which generates an instruction electronics to adapt to a specific way the operation of the dispensing system.
    [22]
    22. The device according to claim 1, characterized in that the dispensing system comprises an ultrasonic diffusion system ( FIG. 6 ) (INDIRECT MODE) operated by one or more ultrasonic transducers.
    [23]
    23. The device according to claim 1, wherein the blowing system of the delivery system particles (FIG.5, FIG.6) comprises transducers and / or actuators and / or motors and / or other similar propulsion systems configured to move in the ambient particles released.
    [24]
    24. The device according to claim 1, characterized in that the connections and coupling systems of the belts (3a, 3b), of the connectors (2), of the base (4) and of the dispensing system are of a magnetic and / or spring nature and / or groove and also comprise internal and / or extrinsic internal channels (15a, 15b) and the necessary means (valves, mixers, flow controllers, membranes) to combine and transport the substances contained in the interchangeable capsules (5, 8) , as well as operatively linking said capsules with said device elements.
    [25]
    25. The device according to claim 1, characterized in that the connections of the interchangeable capsule (5, 8), of the straps (3a, 3b), of the connectors (2), of the base (4), of the dispensing system (FIG.5, FIG.6) and adjustment system / mismatch and fixing (FIG.4) comprises conduits and / or wiring and / or contacts configured to provide data transfer and / or electricity via semiconductors polymers and / or conductive materials and / or inorganic semiconductors and / or composite materials and / or nanomaterials, or some combination thereof, and said configuration, additionally operatively links the processor with said elements of the device.
    [26]
    26. The device according to claim 1, characterized in that the sensors are operatively linked with the strap (3a, 3b) and / or with the dispensing system and the processor; and can obtain biometric data or similar characteristics, from which the The processor generates electronic instructions to temporarily activate the elements of the device and / or other devices.
    [27]
    27. A method for dispensing at least one substance contained in one or more interchangeable capsules through a wearable electronic dispensing device, wherein the method comprises at least the following operational phases:
    a) couple the interchangeable capsules to the wearable electronic device dispenser; b) after coupling, generate electronic information from an interface from data;
    c) after generating the electronic information, receiving it in a processor of the wearable electronic device dispenser;
    d) in response to the receipt of electronic information, generate an electronic instruction to operate a substance dispensing system of the wearable electronic device dispenser; Y
    e) in response to the generation of electronic instruction, temporarily activate the substance dispensing system of the wearable electronic dispensing device to spray and release the substance.
    [28]
    28. The method according to claim 27, which further comprises after receiving the electronic information in the processor, generating an electronic instruction to customize the information accessible through the interface of the wearable electronic device dispenser and / or other devices.
    [29]
    29. The method according to claim 27, characterized in that the electronic information is generated from the interface from data from the interchangeable capsules.
    [30]
    30. The method according to claim 27, which further comprises after receiving the electronic information in the processor, generating an electronic instruction to encode the information from the exchangeable capsules in pulses and / or vibrations on the user's skin by way of notification / alert through motors and / or haptic sensors.
    [31]
    31. The method according to claim 27, characterized in that the electronic information is generated from the interface from data coming from sensors of the wearable electronic device dispenser and / or from another device.
    [32]
    32. The method according to claim 27, which further comprises after temporarily activating the substance dispenser, activating a propellant of the substance sprayed into the environment.
    [33]
    33. The method according to claim 27, which further comprises after receiving the electronic information in the processor of the wearable electronic dispensing device, generating an electronic instruction to activate an adjustment / mismatch and fixation system to adapt the arrangement of the straps to each other. .
    [34]
    34. The method according to claim 27, characterized in that the electronic information is generated from a user interface of the wearable electronic device dispenser and / or another device.
    [35]
    35. The method according to claim 27, characterized in that the temporary operation of the substance dispenser comprises spraying said substance by atomization.
    [36]
    36. The method according to claim 27, characterized in that the temporary operation of the substance dispenser comprises spraying said substance by ultrasound.
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    同族专利:
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    ES2741373B2|2020-10-01|
    EP3834650A1|2021-06-16|
    WO2020030839A1|2020-02-13|
    US20210283627A1|2021-09-16|
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    申请号 | 申请日 | 专利标题
    ES201830818A|ES2741373B2|2018-08-10|2018-08-10|Wearable electronic substance dispensing device with interchangeable elements and method of operation|ES201830818A| ES2741373B2|2018-08-10|2018-08-10|Wearable electronic substance dispensing device with interchangeable elements and method of operation|
    EP19846432.3A| EP3834650A1|2018-08-10|2019-08-07|Wearable electronic device for dispensing substances with swappable elements and operating method|
    PCT/ES2019/070555| WO2020030839A1|2018-08-10|2019-08-07|Wearable electronic device for dispensing substances with swappable elements and operating method|
    US17/267,169| US20210283627A1|2018-08-10|2019-08-07|Wearable Electronic Substance Dispenser with Interchangeable Parts and Operating Method|
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